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Agent derived from tortoise spleen stimulating mammalian hemopoiesis

a technology of proteinaceous agent and spleen, which is applied in the direction of drug composition, peptide/protein ingredient, extracellular fluid disorder, etc., can solve the problems of radiotherapy affecting normal cells as well as cancer cells, provoking life-threatening consequences, and affecting the so as to reduce the detrimental effect of cytotoxic factor

Inactive Publication Date: 2007-05-17
BMR SOLUTIONS
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0030] The composition of matter of the invention stimulates the proliferation of mammalian hemopoietic cells, enhances hemopoiesis in an irradiated subject, increases spleen mass, increases bone marrow count, and / or improves the probability of survival of said irradiated subject. More particularly, the composition of matter of the invention increases bone marrow cells (BMC) count in an irradiated subject following transplantation of bone marrow cells which have been exposed to said composition of matter before being transplanted into said irradiated subject.
[0033] The invention also relates to the oligopeptide modifications wherein said modification or derivative comprises a chemical modification of side chains of the amino acids, or modification of the terminal carboxyl or amino groups, alkylation, acylation, amidation, or esterification, in which said modification modulates the biological activity of said oligopeptide, and / or improves its stability in vivo.
[0034] In a special embodiment, the invention relates to a protective composition for in vivo treatment, preferably by injection, comprising an oligopeptide or physiologically acceptable salts, esters, and amides of said oligopeptide or its variants, modifications, and derivatives, for reducing the detrimental effect of a cytotoxic factor selected from ionizing radiation and cytotoxic chemicals on a tissue or body exposed thereto, wherein the exposure of tissue or body to ionizing radiation or cytotoxic chemical is accidental or a part of radiation therapy or chemotherapy. Said composition being useful for in vitro or ex vivo treatment of hemopoietic cells.
[0036] In a preferred embodiment, the invention relates to a method for reducing the detrimental effect of a cytotoxic factor selected from ionizing radiation and cytotoxic chemicals on a mammalian subject exposed thereto, comprising administering to said subject a composition of matter or an oligopeptide or a physiologically acceptable salt, ester, or amide thereof or a variant, modification, or derivative thereof. This method comprises the steps of: obtaining hemopoietic cells of said mammal; ex vivo treatment of said hemopoietic cells with the composition of matter of the invention, or with an oligopeptide according to the invention or with physiologically acceptable salts, esters, and amides thereof or with functional variants, modifications, and derivatives thereof as previously defined; and re-implanting said cells into said mammal wherein treated cells are donor's hemopoietic cells.
[0039] The invention also relates to the use of the composition of matter, or oligopeptide, or physiologically acceptable salts, esters, and amides thereof or variants, modifications, and derivatives thereof, all according to the invention, in the preparation of a medicament for reducing the detrimental effect of a cytotoxic factor selected from ionizing radiation and cytotoxic chemicals on a tissue or body of a mammal exposed thereto.
[0041] The invention thus encompasses a composition of matter, an oligopeptide or physiologically acceptable salts, esters, and amides thereof or functional variants, modifications, and derivatives thereof, for use as a medicament for reducing the detrimental effect of a cytotoxic factor selected from ionizing radiation and cytotoxic chemicals on a tissue or body of a mammal exposed thereto.

Problems solved by technology

Exposure to ionizing radiation has detrimental effects on tissues; and exposure of hemopoietic cells to such radiation, may provoke life threatening consequences.
Radiotherapy can damage normal cells as well as cancer cells, and there may be potential side effects, which would depend on the radiotherapy dose, site(s) of treatment, age and other factors.
The side effects of radiation therapy include temporary or permanent loss of hair in the area being treated, skin irritation, temporary change in skin color in the treated area, and tiredness.
Since radiation therapy can be and often is used in combination with chemotherapy or surgery, other common side effects as fatigue, pain, nausea, vomiting, decreased blood cell counts, hair loss, and mouth sores may worsen the patient's condition and also increase the patient's discomfort.
In spite of this impressive progress, several aspects of stem cell physiology have not been fully clarified.
Some investigators have found that adding stem cells from peripheral blood to those from bone marrow significantly increases the rate of engraftment.
However, extracting sufficient numbers of stem cells from peripheral blood is a complicated procedure.
The mechanisms regulating hematopoietic stem cells plasticity and self-renewal in vivo have been difficult to define.
The development of a non-toxic selective protective agent that preferentially protects normal tissues from chemotherapy toxicity, without protecting malignant tissues, is a major challenge in cancer chemotherapy research.
The available protective agents are either toxic or lack selective protective activity.

Method used

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  • Agent derived from tortoise spleen stimulating mammalian hemopoiesis
  • Agent derived from tortoise spleen stimulating mammalian hemopoiesis
  • Agent derived from tortoise spleen stimulating mammalian hemopoiesis

Examples

Experimental program
Comparison scheme
Effect test

example 1

Biological Activity of the HPLC Fractions Isolated from Spleen Extract

[0194] The tortoise spleen extract HPLC purified fractions (FIG. 1) were tested for their biological activity. Irradiated mice (6 Gy) were injected intraperitoneally with 2 μg of the different fractions. The hematopoietic activity in these mice was examined by the number of spleen endocolonies formation and by bone marrow smear preparations at the 14th day post-irradiation. Fraction d stimulated the growth of spleen endocolonies but showed no influence on the BMC. Injection of fractions e or f resulted in the same lack of effect as seen in the control mice group injected with PBS; no biological influence was observed. Fraction g did not increase the number of the spleen colonies but showed some influence on the BMC. Fraction h exerted activity on both tested parameters: it helped in the repopulation of BM and increased the number of spleen forming colonies (FIG. 2). Further HPLC mass spectra analysis of the frac...

example 2

Physical Characteristic of FTGN Oligopeptide

[0196] Dry freeze long term storage of the FTGN oligopeptide preserved its structural (FIG. 6a) and biological activities. The dry frozen tetrapeptide conserved its physical characteristics after reconstitution in purified water or serum (FIG. 6c) and was stable after four hours of incubation at 37° C.

example 3

Biological Activity of FTGN Tetrapeptide Tested In Vitro

[0197] Bone marrow cells from normal (non irradiated) mice (4-6×106 cells / ml) were incubated for 2 hours with 10μg / ml tetrapeptide; the cells were washed and cloned in cytokine-supplemented methylcellulose semi-solid medium.

[0198] Myeloid colonies formed after two weeks were counted. As seen in FIG. 7a, a short in vitro incubation of bone marrow cells with the tetrapeptide resulted in an increased colony number.

[0199] Similarly, in vivo and ex vivo irradiated cells (4.5 Gy intensity) incubated for 2 hours with 10 μg / ml FTGN tetrapeptide and treated as described above, formed a larger number of colonies compared to cells that underwent the same irradiation treatment but were not brought in contact with the tetrapeptide (SEQ ID: No. 1) (FIGS. 7b and 7c).

[0200] The presence of the tetrapeptide stimulates hematopoiesis and helps restore the growth of damaged cells lineages.

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Abstract

The present invention relates to a proteinaceous extract derived from tortoise spleen and to a tetrapeptide FTGN, which have stimulatory activity on hematopoietic cells. In particular, this tetrapeptide enhances hemopoietic reconstruction, and bone marrow re-population, reduced as a consequence of a high dose of radiation or chemotherapy exposure. The invention further provides pharmaceutical compositions comprising as an effective ingredient the proteinaceous extract or the FTGN tetrapeptide and ex vivo and in vivo methods of treatment employing them.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a proteinaceous agent derived from tortoise spleen, and to an oligopeptide that stimulates the proliferation of mammalian hemopoietic cells. More specifically, these compounds enhance engraftment of bone marrow transplant, hemopoietic reconstruction and bone marrow re-population and therefore can be used for curing and / or alleviating the detrimental effect of ionizing radiation and / or cytotoxic chemicals on a tissue or body. The invention further provides methods for using this tetrapeptide and pharmaceutical compositions comprising it. BACKGROUND OF THE INVENTION [0002] All publications mentioned throughout this application are fully incorporated herein by reference, including all references cited therein. [0003] Exposure to ionizing radiation has detrimental effects on tissues; and exposure of hemopoietic cells to such radiation, may provoke life threatening consequences. Radiation therapy is an important regimen of ma...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61K38/06C07K5/10A61K38/00C07K5/107C07K7/04
CPCA61K38/00C07K5/1016A61K35/28A61K45/06A61K38/07A61K47/545
Inventor TURDIEV, AZIM
Owner BMR SOLUTIONS
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